Additive Manufacturing Market Size And Trends

The global additive manufacturing market size is expected to be US$ 28.6 billion in 2025, reaching US$ 129.6 billion by 2032, and exhibiting a CAGR of 24.1% during the forecast period of 2025-2032. Increasing emphasis on sustainability and active adoption of recyclable materials across industries are charting the growth trajectory of the market.

Recent Market Trends

• Micro 3D printing is gaining healthy traction in semiconductor packaging and the assembly of micro-electro-mechanical systems (MEMS), as it enables feature resolutions under 10μm for advanced electronics.
• Binder jetting with sinter-based additive manufacturing (AM) is being considered as a viable volume production alternative in the automotive and defense sectors, slashing lead times and reducing part costs substantially.
• Topology optimization, powered by software integration and armed with generative design tools, is accelerating the adoption of design-for-AM (DfAM) in mission-critical aerospace and energy systems.
• Sustainable additive manufacturing is becoming increasingly prominent, with recycled titanium and bio-based polymers entering certified production pipelines for medical and consumer goods.
• AM as a Service (AMaaS) business models are experiencing an increased uptake in the oil & gas sector, enabling remote field printing of spare parts via mobile container-based platforms.

Additive Manufacturing Market in the News

• July 2025: Irish Manufacturing Research (IMR) partnered with Renishaw to enhance the production of complex aerospace optics using metal additive manufacturing. The collaboration leverages Renishaw’s laser powder bed fusion (LPBF) technology to redesign traditionally machined components, reducing both material waste and lead times. A key focus of the collaboration is on mirror mounts and optical housings, which must meet precise geometrical tolerances and thermal performance. IMR highlights this as a step forward in creating functionally optimized, weight-efficient parts for next-generation space and aviation systems.
• June 2025: General Motors launched the Cadillac Celestiq, a luxury electric vehicle (EV) that is integrated with over 130 3D-printed components, marking a major milestone in automotive additive manufacturing. Produced at GM’s Additive Industrialization Center, the parts include structural, cosmetic, and safety-critical elements such as seatbelt guides, window switches, and even steering column parts. The Celestiq exemplifies how additive manufacturing enables hyper-personalization and design freedom.
• April 2025: Accenture and Siemens’ business unit entered a strategic partnership to speed up the adoption of AI-powered additive manufacturing solutions across industrial sectors. The collaboration integrates Siemens’ NX and Xcelerator platforms with Accenture’s AI and digital transformation expertise to enable real-time production optimization, predictive maintenance, and automated design generation. The initiative emphasizes on applying machine learning and digital twin technologies to 3D print workflows, enabling rapid iteration in high-value industries such as automotive, aerospace, and heavy equipment.

Segment Analysis

By 2025, the prototyping segment is projected to command over 54.2% of the additive manufacturing market revenue share, on account of the pivotal role this process plays in industries such as automotive and aerospace. In these sectors, where precision part development and rapid iteration are non-negotiables, industrial 3D printing enables the swift validation of complex designs, shortening development cycles while enhancing product performance.

Technologies such as selective laser sintering (SLS), fused deposition modeling (FDM), and stereolithography (SLA) are enabling the development of increasingly intricate and functional prototypes, reinforcing the value of rapid prototyping in digital manufacturing ecosystems.

For example, researchers and aerospace innovators are leveraging laser-sintered ceramic additive manufacturing, including Lithoz’s Lithography-based Ceramic Manufacturing (LCM), to produce ultra-high-temperature components such as turbine blades, aerospike rocket nozzles, and aerospace electrical insulators. These ceramic parts, crafted with materials such as aluminum oxide, silicon nitride, and zirconia, offer exceptional strength, thermal resistance, and precision (often sub-100?µm feature sizes), while significantly streamlining production timelines and reducing material waste.

As companies ramp up competition in areas of cost efficiency and higher-order accuracy, additive manufacturing in aerospace and automotive will continue to push the boundaries of innovation possibilities in next-gen prototyping.

Regional Analysis

North America, led by the U.S. is slated to establish a dominant hold over the additive manufacturing market in 2025 with a 34% share. This regional market is driven by its extensive installed base of 3D printers and early adoption of AM across aerospace, automotive, and healthcare sectors. The innovation ecosystem in the region and strong policy support continue to cement its leadership in industrial 3D printing.

On the other hand, Asia Pacific is swiftly catching up, fueled by China’s belligerent promotion of materials engineering and robust investments in high-performance 3D printing for aerospace and engine manufacturing. Government bodies such as the Ministry of Industry and Information Technology (MIIT) and the National Development and Reform Commission (NDRC), along with intellectual property incentives, are enabling China to emerge as a formidable global hub for additive manufacturing.

Industry Players

The global additive manufacturing market is characterized by high-intensity competition and rapid technological evolution, as industry leaders prioritize customization, speed, and material performance.

Among the key players operating in the competitive landscape of this market, Stratasys pioneers industrial 3D printing with its F370 CR Series, launched in 2024, offering reinforced material compatibility for enhanced strength and throughput in automotive and aerospace applications.

At the same time, 3D Systems has expanded its reach through the Figure 4 platform, enabling high-speed, precision part production. In 2025, the company launched the Figure 4 135 platform designed for high-mix, low-volume manufacturing, a process optimization module tailored for EXT Titan Pellet 3D printers, and QuickCast Diamond, which is a new build style for creating highly accurate investment casting patterns with the PSLA 270 SLA system. These innovations are indicative of the sector’s steady shift toward scalable, cost-effective solutions powered by next-gen materials and hardware.